FUTURE
Finally, nanotechnology can be expected to have national security uses that could both improve military forces and allow for better monitoring of peace and inspection agreements. Efforts to prevent the proliferation of nuclear weapons or to detect the existence of biological and chemical weapons, for example, could be improved with nanotech devices
FUTURE IMPACT OF NANO
Other
potential job losses could be those of supermarket cashiers if
nanotechnology-based, flexible, thin-film computers housed in plastic
product wrappings enable all-at-once checkout. Supermarket customers
could simply wheel their carts through a detection gateway, similar in
shape to the magnetic security systems found at the exits of stores
today. As with any transformative technology, however, nanotechnology
can also be expected to create many new jobs.
The societal impacts from nanotechnology-based advances in human health
care may also be large. A ten-year increase in human life expectancy in
the United States due to nanotechnology advances would have a
significant impact on Social Security and retirement plans. As in the
fields of biotechnology and genomics, certain development paths in
nanotechnology are likely to have ethical implications.
Nanomaterials could also have adverse environmental impacts. Proper
regulation should be in place to minimize any harmful effects. Because
nanomaterials are invisible to the human eye, extra caution must be
taken to avoid releasing these particles into the environment. Some
preliminary studies point to possible carcinogenic (cancer-causing)
properties of carbon nanotubes. Although these studies need to be
confirmed, many scientists consider it prudent now to take measures to
prevent any potential hazard that these nanostructures may pose.
However, the vast majority of nanotechnology-based products will contain
nanomaterials bound together with other materials or components, rather
than free-floating nano-sized objects, and will therefore not pose such
a risk.
At the same time, nanotechnology breakthroughs are expected to have many
environmental benefits such as reducing the emission of air pollutants
and cleaning up oil spills. The large surface areas of nanomaterials
give them a significant capacity to absorb various chemicals.
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FUTURE IMPACT OF NANOTECHNOLOGY
FUTURE IMPACT
OF NANOTECHNOLOGY
Nanotechnology is expected to have a variety of economic, social,
environmental, and national security impacts. In 2000 the National Science
Foundation began working with the National Nanotechnology Initiative (NNI)
to address nanotechnology’s possible impacts and to propose ways of
minimizing any undesirable consequences.loss of some jobs. Just as the
development of the automobile destroyed the markets for the many products
associated with horse-based transportation and led to the loss of many
jobs, transformative products based on nanotechnology will inevitably lead
to a similar result in some contemporary industries. Examples of at-risk
occupations are jobs manufacturing conventional televisions.
Nanotechnology-based field-emission or liquid-crystal display (LCD),
flat-panel TVs will likely make those jobs obsolete. These new types of
televisions also promise to radically improve picture quality. In
field-emission TVs, for example, each pixel (picture element) is composed
of a sharp tip that emits electrons at very high currents across a small
potential gap into a phosphor for red, green, or blue. The pixels are
brighter, and unlike LCDs that lose clarity in sunlight, field-emission
TVs retain clarity in bright sunlight. Field-emission TVs use much less
energy than conventional TVs. They can be made very thin—less than a
millimeter—although actual commercial devices will probably have a bit
more heft for structural stability and ruggedness. Samsung claims it will
be releasing the first commercial model, based on carbon nanotube
emitters, by early 2004.
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